Litcius/Paper detail

Identification and validation of a major gene for kernel length at the P1 locus in Triticum polonicum

Songyue Chai, Yao Qin, Rui Liu, Wenhui Xiang, Xue Xiao, Xing Fan, Jian Zeng, Lina Sha, Houyang Kang, Haiqin Zhang, Dan S. Long, Dandan Wu, Yonghong Zhou, Yi Wang

2021The Crop Journal20 citationsDOIOpen Access PDF

Abstract

Kernel size, one of the traits that determine wheat yield, is controlled by multiple quantitative trait loci. Polish wheat (Triticum polonicum) has elongated and plump kernel and is a valuable material for breeding high-yielding wheat cultivars. However, genes or loci determining kernel length (KL) in Polish wheat are unknown. We identified and validated a major KL gene, KL-PW, at the P1 locus in Polish wheat. KL-PW is VRT-A2, which encodes a MIKC-type MADS-box protein (MADS55). An insertion/deletion mutation in intron 1 of VRT-A2PW led to an alternatively spliced transcript, VRT-A2PW2. Quantitative PCR analysis showed that VRT-A2PW was more highly expressed in developing seeds than was VRT-A2Ailanmai. Brassinosteroid (BR) sensitivity experiment and the expression of BR-related genes indicated that VRT-A2PW functions as a positive regulator of BR responses. VRT-A2PW significantly increased KL of wheat. These findings not only reveal the molecular basis of KL-PW in controlling KL, but also provide a valuable genetic resource for increasing kernel size in wheat.

Topics & Concepts

BiologyLocus (genetics)Common wheatGeneGeneticsQuantitative trait locusChromosomeWheat and Barley Genetics and PathologyGenetic Mapping and Diversity in Plants and AnimalsCrop Yield and Soil Fertility
Identification and validation of a major gene for kernel length at the P1 locus in Triticum polonicum | Litcius